KR101168048B1 - Non-digging sewerage mending apparatus and its manufacturing method - Google Patents

Abstract

PURPOSE: A method for curing a non-digging pipeline for water and sewage pipes is provided to rapidly cure a reinforcing tube through two stages; a first stage is to use steam heat and a second stage is to use hot water. CONSTITUTION: A method for curing a non-digging pipeline for water and sewage pipes is as follows. A reinforcing tube(3), a curing hose(20), and a circulation hose wound around a rotary drum(2) of a vehicle(1) are inserted into the pipeline in a first curing stage. The reinforcing tube hardens by supplying steam heat to the curing hose while the steam heat generator of a curing unit(10) is operated after the reinforcing tube is reversed. The reinforcing tube hardens by supplying hot water to the curing hose in a second curing stage while the hot water feeder of the curing unit is operated. The finishing work is performed while the hot water supplied to the curing hose circulates so that the reinforcing tube constantly hardens.

Description

Non-digging Sewerage Mending Apparatus and its manufacturing method

The present invention relates to a water treatment sewage non-excavation pipe hardening method, and more specifically to prevent inadequate work that the reinforcing tube is lifted due to the condensed water generated in the process of curing the reinforcement tube reversed inside the pipe by steam heat. Operate the hardening means mounted on the vehicle to proceed with the primary curing step of the reinforcing tube using steam heat, and the secondary curing step of the reinforcing tube using hot water continuously to cure the reinforcing tube quickly and simultaneously supply it to the reinforcing tube. The present invention relates to a water and sewage non-excavation pipe hardening method that can completely reduce the cost of construction by performing the hardening of the reinforcement tube by circulating hot water, and reduce additional repair construction time and cost by preventing poor construction.

In general, water supply and sewage pipes have a long age of buried water, and various kinds of foreign matters are deposited in the inner diameter of the pipes, or various kinds of soils are introduced along with rainwater, and sediments such as fat, oil, and grease are fixed to the water supply and drainage walls. Not only prevents the smooth drainage of sewerage, but also causes water and sewage to flow back during the rainy season or during heavy rains. Therefore, if sediment is accumulated in the sewerage using observation mechanisms, etc., the institution managing the sewage system implements the water and sewage rehabilitation method to remove the sediment at regular intervals.

Various water supply and sewage pipes buried in the ground gradually deteriorate with time, and in the case of constant water pipes, there is a problem in that a large amount of water leaks due to corrosion, and drinking water is contaminated by green water flowing into the water pipes, and sewage pipes In the case of cracks, sewage flows out of the pipeline and contaminates the living environment such as soil and groundwater.

As described above, in repairing an old buried pipeline in which cracks are damaged, the non-excavated pipeline repairing method and apparatus do not dig the ground, and insert a reinforcement tube into the old buried pipeline in which cracks are generated, thereby introducing a new composite pipe into the sewer pipe. As a construction method for forming a road, there is no need for road repair construction, and thus, there are many advantages in terms of constructability, reliability, and economic efficiency.

The unexcavated pipeline repairing method is a method of inserting and fixing a reinforcing tube formed of a waterproof coating layer or a film layer and an adhesive resin impregnated felt layer into an old buried pipe. The adhesive resin impregnated felt layer is placed inside and the waterproof coating layer is placed on the surface. In the reinforcing tube in the inside of the buried pipe inverted, the adhesive resin impregnated felt layer, which was the inner surface, is inverted to the surface and bonded to the inner wall of the buried pipe, and the reinforcing tube is coated on the inner wall of the buried pipe.

Meanwhile, the conventional reinforcing tube curing method hardens the reinforcing tube by steam heat supplied from the vehicle. In order for the steam heat supplied from the vehicle to move from the inlet of the reinforcing tube to the end of the reinforcing tube, a large amount of air is continuously used. The problem of supplying time, the heat of steam is in contact with the air to cool the heat loss in the process of going to the end of the reinforcing tube, the steam condensation in the reinforcement tube due to cooling of the heat reinforcement tube There is a problem of poor construction that the reinforcing tube is lifted in some sections due to the poor adhesion of the pipe wall due to the uncured.

When the conventional reinforcing tube is lifted up with the pipe wall, it is troublesome to repeat the additional repair work several times, and the traffic is congested due to the delay of the whole construction, and in particular, the steam heat supplied to the inside of the reinforcing tube cools down. The condensate is accumulated inside the tube. As a result, the heat of the reinforcement tube heated by the hardening operation cools down due to the condensate accumulated in the reinforcement tube, and the reinforcement tube floats with the pipe wall. Difficulties of having to install a separate drainage method and drainage for discharging, there is a problem such as having to additionally provide a drainage vehicle for storing condensate after installation of the drainage.

In the conventional hardening method using steam heat, the pressure of the reinforcing tube is ruptured in the process of forcing the pipe to the end of the reinforcing tube because the pressure must be kept constant by discharging the steam heat supplied to the inside of the reinforcing tube to the outside. In the process of discharging steam heat through the pipe which protrudes to the outside, severe smell and noise are generated, resulting in many complaints.

The present invention is to solve the above-mentioned problems, an object of the present invention is to operate the steam heat generating device of the curing means mounted on a vehicle while steam heat is ejected to the ejection hole and the discharge hole of the curing hose to the reinforcing tube Reinforcing tube to cure During the first cure step, shut off the supply of steam heat before condensate is generated inside the reinforcing tube and activate the hot water supply device of the hardening means. Hot water is pushed down from the upstream end of the tube to the downstream where the inlet of the pipe is located, followed by the secondary curing step of the reinforcing tube to cure the reinforcing tube. The hardening of the reinforcement tube is promoted by the hot water circulation step of circulating and supplying the reinforcement tube. To provide water and wastewater trenchless pipeline hardening method capable of preventing a bad Ltd. in advance to be good.

Another object of the present invention is to reverse the work of the reinforcement tube inserted and reversed in the pipeline from the downstream to the upstream, steam heat and hot water supplied through the hardening hose reinforcement while spraying or flowing downstream from the upstream where the reinforcement tube is located At the same time, the hot water is hardened quickly, and in the case of hot water, 100% of heat is transferred to only a small amount of water flowing from the upstream to the downstream to provide a water and sewage non-excavation pipe hardening method that can completely cure the reinforcement tube.

Still another object of the present invention is to reinforce the uncured reinforcement while the hot water is directly supplied to the hardening hose while the steam heat is cooled in the first curing step of the reinforcing tube using steam heat, and hot water is directly supplied to the hardening hose. The water and sewage non-excavation pipe which hardens a tube provides a hardening method.

Another object of the present invention is the conventional hardening operation using steam heat to discharge the condensed water accumulated in the stale construction and the curved pipe unreinforced because the reinforcing tube is not supplied smoothly along the curved pipe line to the outside Although there were many difficulties in the operation, the present invention evenly uneven hardened reinforcement tube generated by hardening of steam heat, even a small amount of hot water supplied from the hardening hose is pushed down from the upstream and downstream of the pipe uniformly in a fast time It is to provide a hardening method for water and sewage non-excavated pipe line that can proceed the hardening work.

Another object of the present invention is to maintain the hot water is always heated by connecting the steam heat supply line and the storage tank in order to compensate for the disadvantage that takes a long time in the process of heating the first hot water in the case of hot water curing the reinforcement tube Meanwhile, steam heat and hot water are continuously supplied to provide a water and sewage non-excavation pipe hardening method that can reduce construction costs by shortening the curing time.

Still another object of the present invention is that the hot water supplied into the reinforcing tube after the hardening of the reinforcing tube is completed is stored in the storage tank through the circulation hose to shorten the time for heating the hot water, which is accumulated inside the reinforcing tube In the case of the residual water, it is to provide a hardening method for water and sewage non-excavation pipe that can be sucked into the circulation hose to perform the finishing work quickly.

Another object of the present invention is to install the steam heat generating device and the hot water supply device in the interior of the vehicle is easy to move and handle, the supply and circulation of hot water is also possible in one vehicle to minimize the work space of the workplace It is to provide a hardening method for water and sewage non-excavated pipe to allow vehicles and people to move smoothly.

In order to achieve the object of the present invention as described above, the water and sewage non-excavation pipe hardening method according to the present invention inverts the reinforcing tube impregnated with the thermosetting resin into the pipe of the old water and sewage into the pipeline by using water pressure or air pressure In the water and sewage non-excavation pipe line hardening method for curing the reinforcing tube,

When the reinforcing tube wound on the rotating drum of the vehicle is inverted into the pipeline, the hardening hose moves together, and a circulation hose is installed at the inlet of the pipeline, and steam heat of the hardening means mounted on the vehicle is completed after the reversal of the reinforcing tube is completed. When the device is operated, steam heat is supplied to the inside of the hardening hose to cure the reinforcing tube. One end of the hardening hose is connected to the steam heat generating device, and the other end is connected to the end of the reinforcing tube with a connecting strap. A discharge hole is formed, and a reinforcing tube primary curing step of curing a reinforcing tube while a discharge hole is formed in the middle of the hardening hose and the steam heat supplied to the hardening hose is discharged to the jet hole; When the primary hardening work of the reinforcing tube is completed, the steam heat is cooled and condensed water is accumulated on the bottom surface of the reinforcing tube so that the heat of steam supplied to the hardening hose is prevented to prevent the hard work of hardening work. When the hot water supply device of the hardening means is operated to supply hot water to the inside of the hot water, the hot water is discharged through the discharge hole of the hardening hose, and the hot water is pushed down from the end of the reinforcing tube to the downstream position where the inlet of the pipe is located to perform hardening work. Reinforcing tube secondary curing step; A hot water circulation step of operating the circulation pump connected to the circulation hose inserted into the inlet of the pipe, the cooled hot water flows into the circulation hose and circulates through the storage tank to the hot water supply device to continuously harden the reinforcing tube; And a finishing step of finishing the construction by storing the cooled hot water in a storage tank or discharging it to the outside when the secondary hardening work of the reinforcing tube is completed and then collecting the hardening hose and the circulation hose.

According to the present invention as described above, the hardening means for inverting the reinforcement tube in the interior of the pipeline and then hardening the reinforcement tube with steam heat and hot water is installed in one vehicle to reduce the installation cost and construction cost, and Minimizing the work space when installing the vehicle on the site is an invention that can effect the hardening work quickly while avoiding inconvenience to the vehicle and people.

The present invention proceeds to reverse the reinforcement tube in the interior of the pipeline in the downstream direction upstream, the steam heat and hot water supplied to the inside of the reinforcement tube is discharged to the discharge hole and the discharge hole of the curing hose to quickly reinforce the tube. In particular, when hot water is supplied, hot water is pushed down from the upstream side where the end of the reinforcing tube is located to the downstream side where the inlet of the pipe is located. Due to the condensed water generated inside the reinforcement tube is hot invention pushes the condensed water while the invention has the effect of completely curing the uncured reinforcement tube.

The present invention is a problem that the reinforcement tube is lifted by the condensed water during the operation of curing the reinforcement tube with steam heat, the difficulty of discharging the condensate to the outside, and heating the hot water during the operation of curing the reinforcement tube using hot water The steam heat generator and hot water supply device for the hardening means is an invention that can solve both the problem that takes a long time and cost, and the problem of poor construction of reinforcing tube hardening work because the hot water does not rise above 90 ℃. When the reinforcing tube is formed integrally, the reinforcing tube is first hardened by steam heat, and hot water is continuously supplied to perform the second hardening operation, and the hot water is circulated to cure the reinforcing tube quickly. Invention.

The present invention has the effect of reducing the construction cost by eliminating the process of further repair work due to the shortening of the overall construction time and the phenomenon that the reinforcing tube is lifted, and heat the hot water by circulating the water supplied to the steam heat and hot water The invention is effective in shortening the time to use.

1 is a block diagram showing the overall configuration of the present invention.
Figure 2 is an enlarged cross-sectional view showing a first step of curing the reinforcing tube of the present invention.
Figure 3 is an enlarged cross-sectional view showing a secondary curing step of the reinforcing tube of the present invention.
4 is a schematic view of the hardening means of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 and 4, the present invention is inserted into the reinforcing tube 3, the hardening hose 20, the circulation hose 30 wound in the rotary drum (2) of the vehicle (1) and then the reinforcing tube (3) the reinforcing tube primary curing step of curing the reinforcing tube (3) by using steam heat by operating the steam heat generator 12 of the curing means 10 after inverting (3); Reinforcing tube secondary curing step of operating the hot water supply device 13 of the hardening means 10 to cure the reinforcing tube 3 using hot water; Hot water circulation step of curing the reinforcement tube (3) by circulating hot water; And hardening process of the reinforcement tube proceeds to the finishing step to finish the work.

The reinforcement tube primary curing step of curing the reinforcement tube 3 reversed in the pipeline, moves the vehicle 1 to the work site and then moves the reinforcement tube 3 of the rotating drum 2 mounted on the vehicle 1. The reinforcing tube (3) is moved along the upstream direction at the inlet of the pipeline and then the reinforcing tube (3) is kept in close contact with the wall of the pipeline, the reinforcing tube (3) ) Is reversed, and the connecting string 23 connected to the inner end of the reinforcing tube 3 and the hardening hose 20 fixed to the end of the connecting string 23 move together by the distance that the reinforcing tube 3 moves. The circulation hose 30 is fixed to one side of the curing hose 20 to maintain the circulation hose 30 also entering the inlet of the conduit, and the circulation hose 30 enters the curing hose 20. Afterwards, the pipe can also be inserted and operated to the pipeline entrance (see FIG. 1).

Discharge hole 21 is formed at the end of the hardening hose 20 to discharge steam heat and hot water, and a spouting hole 22 is formed at predetermined intervals on the circumferential surface of the hardening hose 20 so that the hardening hose 20 is formed. Part of the steam heat and hot water supplied to the spout hole 22 to cure the reinforcing tube (3), the steam heat supply line 14 and the hot water supply line 15 is connected to the end of the curing hose (20) Each is connected by the steam heat and hot water are supplied and blocked through the curing hose 20, respectively. (See Fig. 2)

When the reinforcing tube (3) the reverse operation is completed to operate the hardening means 10 installed in the vehicle (1), the hardening means 10 is a steam heat generator 12 and hot water supply device to the boiler 11 (13) are each installed to supply steam heat and hot water to the curing hose 20, respectively, wherein the steam heat supply line 14 is formed between the steam heat generating device 12 and the curing hose 20 The steam heat is supplied from the steam heat generator 12 through the steam heat supply line 14 and the heat of steam is blown out to the blow holes 22 of the curing hose 20 so that the reinforcing tube 3 is cured. The heat supply line 14 is provided with a steam heat shut-off valve 14a for opening and closing the supply of steam heat and a pressurizing pump 19 for supplying steam heat to the curing hose 20 at high pressure, respectively, and the pressure pump 19 ) Is supplied with hot air to quickly supply steam heat to the reinforcement tube (3). Between is provided so as to cure the reinforcing tube (3).

When the boiler 11 and the steam heat generator 12 are operated, the steam heat opening and closing valve 14a formed between the steam heat supply line 14 and the curing hose 20 is opened, and the steam heat is cured hose 20. The steam heat is supplied to the curing hose 20, the high pressure air and steam heat is supplied to the curing hose 20 by the operation of the pressure pump 19, the blowout hole 22 and the discharge hole 21 Steam heat is blown out to cure the reinforcing tube (3).

The reinforcement tube 3 and the curing hose 20 wound on the rotating drum 2 are installed in the vehicle 1 with the reinforcing tube 3 and the curing hose 20 according to the structure of the vehicle 1. It can also be installed and used in a water tank or a shelf.

In the secondary curing step of supplying hot water to the hardening hose 20 after the hardening of the reinforcing tube by steam heat, the steam heat supplied to the hardening hose 20 is cooled by the steam heat after a predetermined time, the reinforcing tube The condensate is accumulated inside (3), and the surface of the reinforcing tube (3) that is in contact with the accumulated condensate has to be repaired by the insolvent construction in which the reinforcing tube (3) is lifted due to the inability to absorb steam heat. Although there was an inconvenience, the hardening means 10 shuts off the steam heat opening and closing valve 14a while stopping the operation of the steam heat generating device 12 at the same time as the completion of the primary curing work of the reinforcing tube 3, the steam When the heat supply is cut off and the hot water supply device 13 of the boiler 11 is operated, hot water is supplied to the hardening hose 20, wherein the hot water supply is provided between the hot water supply device 13 and the hardening hose 20. Line 15 is connected, hot water supply The inlet 15 is provided with a hot water on-off valve 15a for opening and closing the supply of hot water and a pressurizing pump 19a for supplying hot water to the curing hose 20 at high pressure.

When the boiler 11 and the hot water supply device 13 are operated, the hot water open / close valve 15a formed between the hot water supply line 15 and the curing hose 20 in the state in which the supply of steam heat is blocked opens the hot water. The hot water supplied to the hardening hose 20, and the hot water supplied to the hardening hose 20 is supplied to the hardening hose 20 by the operation of the pressure pump 19a, and partly is ejected to the spouting hole 22. Hardening the reinforcing tube (3), most of the hot water is discharged into the discharge hole 21, as shown in Figure 3 hot water discharged to the discharge hole 21 is pushed down in the downstream direction where the inlet of the pipe is located upstream By performing the secondary curing operation of the reinforcing tube while it is possible to prevent inadequate construction that the reinforcing tube (3) is lifted.

Meanwhile, hot water is continuously circulated with only a small amount of hot water that is pushed down from the upstream end of the reinforcement tube to the downstream direction where the inlet of the pipe is located, so that 100% heat is transferred to the reinforcement tube to completely cure the reinforcement tube. Even if the condensed water is accumulated in the tube 3, the hot water is pushed down to harden the unhardened reinforcement tube 3 due to the condensed water, thereby preventing inadequate construction.

In the hot water circulation step of circulating the hot water used in the secondary curing operation of the reinforcing tube, the hot water located at the inlet of the conduit is sucked into the circulation hose 30 is moved to the storage tank 16, the circulation hose ( Between the 30 and the storage tank 16, a circulation pump 18 is installed to suck hot water into the circulation hose 30 to store in the storage tank 16, the storage tank 16 is a hot water supply device (13) ) And the line is connected can be used by continuously circulating the hot water in the curing hose (20).

On the other hand, the water stored in the storage tank 16 is connected to the steam heat supply line 14 to maintain the water is heated by the steam heat to use hot water at any time, the water in the storage tank 16 It is connected to the hot water supply device 15 has a feature that can circulate the hot water in the curing hose 20 to quickly perform the curing operation of the reinforcement tube (3).

In the finishing step of completing the hot water circulation step and finishing the construction, when the operation of the hot water supply device 13 is stopped, the hot water received in the reinforcement tube 3 by the operation of the circulation pump 18 is a circulation hose ( Hot water is stored in the storage tank 16 while being sucked into 30, and the hardening operation is completed. The end of the reinforcing tube 3 is cut, and then the hardening hose 20 and the circulation hose 30 are rotated. Rewind to finish construction.

Water and sewage non-excavation pipe hardening method of the present invention is an invention that can be performed at the same time the reinforcement tube and the hardening of the reinforcement tube in one vehicle (1), in particular, during the hardening of the reinforcement tube The steam heat generator 12 is operated to supply steam heat to the hardening hose 20 to quickly proceed with the primary hardening of the reinforcement tube, and the heat of the hardening means 10 before the steam heat is cooled to generate condensate. When the hot water supply device 13 is operated to supply hot water to the hardening hose 20 to perform the second hardening of the reinforcement tube, the reinforcement tube 3 may be uncured or lifted from the pipe wall. Even if condensate is generated inside the reinforcement tube 3, the hot water is pushed down from the upstream side where the end of the reinforcement tube 3 is positioned to the downstream side where the inlet of the pipe is located to cure the uncured reinforcement tube 3 due to the condensate. With the feature to let you, Hot water is pushed down to the downstream side of the inlet of the pipeline to promote hardening, which reduces the cost of construction and additional repair work.

In addition, the water and sewage non-excavation pipe hardening method of the present invention is characterized in that the construction of the hot water supplied to the hardening hose can proceed quickly to the construction by always maintaining a heated state due to the steam heat supplied from the steam heat generator, narrow alleyway In the case of narrow working sites, the equipment used for construction is minimized to prevent inconvenience to traffic of vehicles and people, and the supply of steam heat and hot water and circulation and storage of hot water by hardening means installed in the vehicle. At the same time, it is possible to reduce the budget used for construction.

Water and sewage non-excavation pipe duct hardening method according to the present invention described above is not limited to the above-described embodiment, having a general knowledge in the field of the present invention without departing from the gist of the present invention claimed in the claims Anyone who grows has the technical spirit to the extent that anyone can make various changes.

1: vehicle 2: rotating drum
3: reinforcing tube 10: curing means
11: boiler 12: steam heat generator
13: hot water supply device 14: steam heat supply line
14a: steam heat shut off valve 15: hot water supply line
15a: hot water shut-off valve 16: storage tank
17: hot water circulation line 18: circulation pump
19, 19a: pressurized pump 20: hardening hose
21: outlet hole 22: ejection hole
23: connecting string 30: circulation hose

Claims (7)

In the water and sewage non-excavation pipeline hardening method of inverting the reinforcing tube impregnated with the thermosetting resin into the pipeline by using water pressure or air pressure, and then hardening the reinforcement tube in the old water supply and drainage pipe,
When the reinforcement tube 3 wound on the rotating drum 2 of the vehicle 1 is inverted into the pipeline, the hardening hose 20 moves together, and a circulation hose 30 is installed at the inlet of the pipeline, and the reinforcement tube 3 When the steam heat generator 12 of the hardening means 10 mounted on the vehicle 1 is operated after completion of the reversal operation, the steam heat is supplied to the inside of the hardening hose 20 so that the reinforcing tube 3 can be removed. The curing hose 20 is one end of the curing hose 20 is connected to the steam heat generator 12, the other end is connected to the end of the reinforcing tube (3) by a connecting string (23) while the discharge hole 21 at the end Is formed, the reinforcement for hardening the reinforcing tube (3) is formed in the middle of the curing hose 20, the blowing hole 22 is formed and the steam heat supplied to the curing hose 20 is blown into the blowing hole (22) Tube primary curing step;
Steam heat is supplied to the curing hose 20 to prevent the condensed water accumulates on the bottom surface of the reinforcing tube 3 while the primary curing operation of the reinforcement tube is completed, thereby preventing poor work of the curing operation. When the hot water supply device 13 of the hardening means 10 is operated so that the hot water is supplied to the inside of the hardening hose 20, the hot water is discharged to the discharge hole 21 of the hardening hose 20 and reinforced. Reinforcing tube secondary curing step of performing a hardening operation while the hot water is pushed down in the downstream direction where the inlet of the pipe is located at the end of the tube (3);
When the circulation pump 18 connected to the circulation hose 30 inserted into the inlet of the conduit is operated, the cooled hot water flows into the circulation hose 30 and is circulated to the hot water supply device 13 through the storage tank 16. A hot water circulation step of continuously performing the hardening of the reinforcing tube (3); And
When the secondary curing of the reinforcing tube is completed, the step of finishing the construction by storing the cooled hot water in the storage tank 16 or discharged to the outside and then collecting the curing hose 20 and the circulation hose 30;
Water and sewage non-excavation pipe line hardening method comprising a. The method of claim 1, wherein the hardening means (10) is a boiler 11, the steam heat generator 12 and the hot water supply device 13, characterized in that the water supply and sewage non-excavation pipe line hardening method. The steam heat supply line (14) is connected between the steam heat generator (12) and the curing hose (20), and the steam heat supply line (14) is used for opening and closing the steam heat supply. Water and sewage non-excavation pipe line hardening method characterized in that the heat opening and closing valve (14a) is provided. The hot water supply line 15 is connected between the hot water supply device 13 and the curing hose 20, the hot water supply line 15 for opening and closing the supply of hot water Water and sewage non-excavation pipe line hardening method characterized in that the valve (15a) and the pressure pump (19a) is provided. According to claim 1, wherein the hot water circulation line 17 is connected to the hot water introduced into the circulation hose 30 in the hot water circulation step circulated to the boiler 11 through the storage tank 16, the storage The hot water circulation line 17 is connected to the tank 16 and the circulation hose 30, and the circulation pump 18 is installed. The steam heat supply line 14 is connected to the storage tank 16 to supply steam heat, and the pressurized pump 19 is further installed in the steam heat supply line 14. Water and sewage non-excavation pipe line hardening method.


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